Development of Nanobodies As First-In-Class Inhibitors for the NEDP1

Development of Nanobodies As First-In-Class Inhibitors for the NEDP1

bioRxiv preprint doi: https://doi.org/10.1101/2020.03.20.999326; this version posted March 22, 2020. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. Development of Nanobodies as first-in-class inhibitors for the NEDP1 deNEDDylating enzyme Naima Abidi1, Helene Trauchessec1, Martine Pugniere2, Serge Muyldermans3 and Dimitris P. Xirodimas1* 1 CRBM, CNRS, University of Montpellier, UMR5237, Montpellier, Cedex 5, France. 2 IRCM, Inserm, University of Montpellier, ICM, Montpellier, Cedex 5, France. 3 VIB-VUB Center for Structural Biology, Vrije Universiteit Brussel, 1050, Brussels, Belgium. *corresponding author: [email protected] tel: +33 (0)434359533 fax: +33 (0)434359410 bioRxiv preprint doi: https://doi.org/10.1101/2020.03.20.999326; this version posted March 22, 2020. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. Abstract Protein NEDDylation emerges as an important post-translational modification and an attractive target for therapeutic intervention. Modification of NEDD8 onto substrates is finely balanced by the co-ordinated activity of conjugating and deconjugating enzymes. The NEDP1/DEN1/SENP8 protease is a NEDD8 specific processing and deconjugating enzyme that regulates the NEDDylation mainly of non-cullin substrates. Here, we report the development and characterisation of nanobodies as first-in-class inhibitors for NEDP1. The nanobodies display high-affinity (low nM) against NEDP1 and specifically inhibit NEDP1 processing activity in vitro and NEDP1 deconjugating activity in tissue- culture cells and in cell extracts. We also isolated nanobodies that bind to NEDP1 with high-affinity but do not affect NEDP1 activity. The developed nanobodies provide new tools to study the function of NEDP1 and to prevent deNEDDylation in cell extracts used in biochemical assays. bioRxiv preprint doi: https://doi.org/10.1101/2020.03.20.999326; this version posted March 22, 2020. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. Introduction Modification of proteins with the ubiquitin-like molecule NEDD8 is essential almost in all tested organisms. Similarly to the modification with ubiquitin, protein NEDDylation depends on the activity of the so-called E1, E2 and E3 enzymes1,2. Prior to its activation, NEDD8 has to be processed to expose the C-terminal diGlycine motif. While several enzymes with dual activity towards ubiquitin and NEDD8 have been reported as NEDD8 processing enzymes, the NEDP1 (DEN1, SENP8) cysteine protease has specific NEDD8 processing activity1,2. Upon its processing, NEDD8 is activated by a single E1 enzyme (heterodimer Uba3/APPBP1) and conjugated through the activity of two E2 conjugating enzymes (Ube2M, Ube2F) and multiple E3-ligases1,2. The activation and conjugation of NEDD8 by the above-described specific NEDD8 enzymes defines the so-called canonical pathway. However, under conditions of proteotoxic stress, in addition to the conjugation of NEDD8 by the canonical pathway, NEDD8 is activated and conjugated by enzymes of the ubiquitin system, leading to the formation of hybrid ubiquitin-NEDD8 chains3,4. This defines the so-called atypical pathway that is involved in the formation of nuclear protein aggregates and control of the nuclear Ubiquitin Proteasome System5,6. The action of NEDD8 conjugating enzymes is finely balanced by the activity of deconjugating (deNEDDylating) enzymes. Similarly to NEDD8 processing, several proteases with dual activity towards ubiquitin and NEDD8 can promote NEDD8 deconjugation from substrates1,2. However, the two specific deNEDDylating enzymes are the COP9 signalosome and NEDP1. COP9, a zinc metalloprotease, has minimal affinity towards NEDD8 but specifically deconjugates NEDD8 from cullins, the best established target for NEDD81,2. NEDP1 on the other hand displays deNEDDylating activity towards non-cullin substrates7–18 and its deletion causes a dramatic increase in global protein NEDDylation11,12,19,20, with the accumulation of poly-NEDD8 chains through lysines bioRxiv preprint doi: https://doi.org/10.1101/2020.03.20.999326; this version posted March 22, 2020. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. K11/K48 as a prominent effect11,19. Importantly, both deNEDDylating activities control the canonical NEDD8 pathway1,2,19. While the function of the COP9 signalosome as a key component of the NEDD8 pathway through regulation of the Cullin Ring Ligases has been established, the role of NEDP1 in homeostatic and stress responses is only now emerging1,2. Recent studies indicated a role for NEDP1 in tumour progression; The upregulation of NEDD8 in hepatocellular carcinoma was related to a decrease in the levels of NEDP1. Importantly, decrease in NEDP1 levels provides resistance of tumour cells to DNA damage induced apoptosis9,19-21. Targeting the NEDD8 pathway is a promising therapeutic approach. Inhibitors for the NEDD8 E1 enzyme (MLN4924/Pevonedistat) are in Phase III clinical trials for cancer treatment1,22,23. The promising anti-tumour effects of MLN4924 have generated an interest in the field and additional components of the NEDD8 pathway including E2 conjugating enzymes, E3-ligases and the COP9 signalosome have been targeted1,24-26. Apart for their potential clinical testing and therapeutic use, such compounds provide invaluable tools to study the function of the target in question. However, specific inhibitors of the deNEDDylating enzyme NEDP1 do not currently exist. Nanobodies (Nbs) are the smallest antigen binding fragments, only 15 kDa, containing the full antigen-binding capacity of the original heavy chain. In addition to the benefits of conventional antibodies, such as high affinity and selectivity for a target, easy tailoring into pluripotent constructs and low inherent toxicity, Nbs have technological and biophysical advantages that outperform conventional antibodies; 1. Nbs are only a tenth of the size of a conventional antibody able to penetrate tissues more effectively than conventional antibodies and they can recognize uncommon or hidden epitopes27,28 2. They are naturally soluble in aqueous solution and do not have a tendency to aggregate29. 3. They can be easily expressed in cells as fusion proteins enabling the bioRxiv preprint doi: https://doi.org/10.1101/2020.03.20.999326; this version posted March 22, 2020. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. recognition of the target of interest in living cells. These features have already lead to a number of biotechnological and medical applications in which Nbs excel other antibody formats30,31. Here, we describe the development and characterisation of Nbs that specifically inhibit NEDP1 activity. Using in vitro and in vivo assays we show that the developed Nbs have a high affinity (low nM scale) for human NEDP1 and potently inhibit both the processing and deconjugating activity of NEDP1. Expression of the Nbs in human cells in tissue culture cause the accumulation of NEDD8 conjugates equivalent to the level observed upon NEDP1 deletion by CRISPR/Cas9. In summary, the study describes the development of Nbs as first-in-class inhibitors for NEDP1 that should provide invaluable tools to study the function of a key deNEDDylating activity. bioRxiv preprint doi: https://doi.org/10.1101/2020.03.20.999326; this version posted March 22, 2020. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. Materials and Methods Reagents All common chemicals were purchased from Sigma Aldrich. Protease Inhibitor Cocktail Tablets EDTA-free (Roche). Rabbit monoclonal anti-NEDD8 (1:2000), Y297 (GeneTex, GTX61205), rabbit anti-ubiquitin (1:2000), (DAKO, Z0458), mouse anti-GAPDH (1:5000) (6C5, ab8245), mouse anti-SUMO-2 (1:2000) (gift from Dr Guillaume Bossis), sheep anti- NEDP1 (1:1000) (gift from Prof. Ronald Hay), mouse anti-Flag (1:2000), (Sigma, F1804), mouse anti-His6 (Clontech, 631212). Anti-Flag beads were purchased from SIGMA. Cell culture U2OS cells were grown in Dulbecco’s modified Eagle’s medium (DMEM) supplemented with 10 % fetal bovine serum (FBS) and antibiotics (Penicillin, 50 U/ml and Streptomycin 50 µg/ml) in 5 % CO2 at 37 oC in a humidified incubator. Cell lines were routinely tested for mycoplasma contamination but have not been authenticated. Cells were kept in culture for a maximum of 20 passages. Cells stably expressing Nbs were selected with G418 (1 mg/ml). Immunisation of llama, construction of anti-NEDP1 Nb library and selection of specific antibody fragments (Biopanning) A llama was injected subcutaneously by 140 μg recombinant human NEDP1 protein emulsified with Gerbu adjuvant, six times at weekly intervals. After the last immunisation, 50 ml of blood were taken and peripheral blood lymphocytes (PBLs) were extracted with lympho-prep (Nycomed, Switzerland). Library construction was done as previously described32,33. Briefly, Trizol-extracted mRNA from the pellet was used as a template for RT-PCR to generate first strand cDNA using oligo-dT

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